AWS Brazing Handbook Errata Reprint 2011INTRODUCTION 568 CHAPTER 32—STAINLESS STEELS AWS BRAZING...
Transcript of AWS Brazing Handbook Errata Reprint 2011INTRODUCTION 568 CHAPTER 32—STAINLESS STEELS AWS BRAZING...
STAINLESS STEELS
Reviewers
C. DattamajumdarHi TecMetal Group, Incorporated
D. J. KoteckiThe Lincoln Electric Company
Contents
Introduction 568
Categorization ofStainless Steels 568
Processes andEquipment 571
Precleaning andSurface Preparation 571
Brazing Filler Metals 571
Fluxes andAtmospheres 573
PostbrazingOperations 574
Repair Methods 574
Applications 574
Bibliography 575
SupplementaryReading List 575
CHAPTER 32
Photograph courtesy of HI TecMetal Group, Incorporated
AWS BRAZING HANDBOOK 567
INTRODUCTION
568 CHAPTER 32—STAINLESS STEELS AWS BRAZING HANDBOOK
The term stainless steels describes a wide varietyof iron-based alloys containing chromium in excessof 10%. These alloys are used primarily in applica-tions demanding heat or corrosion resistance. Thisclass of materials is brazeable by all processes,though tighter process controls are needed thanthose required to braze carbon steels.
The most rigorous requirements are imposed bythe inherent chemical characteristics of stainlesssteels and the generally more arduous service envi-ronments. Chromium has a high affinity for oxygen,resulting in the formation of a tenacious chromiumoxide layer that reduces the brazeability of stainlesssteels in an oxygen-containing atmosphere. Thus,stainless steels are brazed under protective atmo-spheres such as dry hydrogen, vacuum, and otherinert gases.
Success in the brazing of stainless steel compo-nents depends on knowledge of the properties ofstainless steels and rigid adherence to the appropriateprocess controls.
CATEGORIZATION OF STAINLESS STEELS
Stainless steels are grouped into the following fivecategories:
1. Austenitic (nonhardenable) steels,2. Ferritic (nonhardenable) steels,3. Martensitic (hardenable) steels,4. Precipitation hardening steels, and5. Duplex stainless steels.
All these alloys are iron based and contain at least10% chromium, the basic element that impartscorrosion resistance in the form of a tenacious and
transparent chromium oxide layer. The corrosionresistance of stainless steels varies from one alloy toanother, and for any given alloy, it varies from onecorrosive medium to another. If any doubt existsregarding the proper stainless steel to use in a givenenvironment, standard reference works1, 2, 3 or man-ufacturers’ representatives should be consulted forfurther information.
AUSTENITIC (NONHARDENABLE) STAINLESS STEELS
Austenitic (nonhardenable) stainless steels containsufficient nickel or nickel plus manganese additionsto (1) stabilize austenite down to room temperatureand (2) cause these alloys to become nonmagneticand nonhardenable by heat treatment. Stainlesssteels of this class possess the highest heat and corro-sion resistance.
The chromium-nickel steels are designated by anAmerican Iron and Steel Institute (AISI) type numberin the 300 Series, while the chromium-nickel-magnesium steels are designated by a 200-Seriesnumber. One commonly used alloy is Type 304,which contains nominally 18% (by weight) chromiumand 8% nickel.
In the 200-Series stainless steels, some of thenickel is replaced with manganese on a ratio ofapproximately 2% of manganese for each percent ofreplaced nickel. Type 202, the parallel to Type 302,contains 18% chromium, 5% nickel, and 9%manganese.
1. ASM International Handbook Committee, 1993, Welding,Brazing, and Soldering, Vol. 6 of ASM Metals Handbook, MetalsPark, Ohio: ASM International.2. Peckner, D., and I. M. Bernstein. 1977. Handbook of StainlessSteels. New York: McGraw Hill.3. Pickering, F. B., 1979, The Metallurgical Evolution of StainlessSteels, Metals Park, Ohio: American Society for Metals.
STAINLESS STEELSCHAPTER 32